How Does Sudden Cardiac Death Occur In Familial Hypertrophic Cardiomyopathy?
Funder
National Health and Medical Research Council
Funding Amount
$1,312,606.00
Summary
Familial hypertrophic cardiomyopathy is a leading cause of sudden cardiac death but the mechanisms for the induction of arrhythmia are unknown. This proposal has the potential to impact sudden death in the young and enable significant expansion of Australia’s research capacity into the treatment of familial hypertrophic heart disease in humans.
The primary aim of my research has been to understand how biological ion channels work. All electrical activities in the nervous system, including communication between cells and influences of hormones and drugs on cell function, are regulated by the opening and closing of ion channels. Thus, understanding how these ion channels operate will ultimately help us find the causes of, and possibly cures for, many neurological, muscular and cardiac disorders.
The L-type Calcium Channel In Cardiovascular Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$631,370.00
Summary
Calcium influx into cardiac muscle cells occurs via the L-type calcium channel. The channel is essential to life but when function is altered it can contribute to the development of sudden death and heart failure. I have made significant discoveries in understanding the role of the channel in disease and I have exploited this knowledge to design therapy including a novel class of calcium channel antagonists to prevent the development of heart failure.
Investigating CRAC Channel Assembly And Interactions Important In Immunity
Funder
National Health and Medical Research Council
Funding Amount
$398,247.00
Summary
#ERROR: -Transmission and amplification of signals between subcellular compartments underpins cell function. Calcium ions are cellular messengers that can cross Membranes using specialised pores. CRAC Calcium channels in particular are critical for immune system function,and partner Proteins switch them on and off in a feedback response to compartmental Calcium levels. the objective of my research is to investigate how opening and closing of the CRAC pore is triggered at a molecular level.
Role Of Calcium Channels And Small-conductance Potassium Channels In Myenteric Neurons
Funder
National Health and Medical Research Council
Funding Amount
$131,717.00
Summary
This proposal will investigate the electrical properties of neurons in the wall of the intestine that control movements of the bowel. These neurons form an extensive network that runs the length of the gastrointestinal tract and control mixing and propulsion of food along the intestine. We will determine the basic electrical properties of these neurons and investigate why some of them transmit signals in a continuous manner while others transmit signals intermittently and how these patterns of a ....This proposal will investigate the electrical properties of neurons in the wall of the intestine that control movements of the bowel. These neurons form an extensive network that runs the length of the gastrointestinal tract and control mixing and propulsion of food along the intestine. We will determine the basic electrical properties of these neurons and investigate why some of them transmit signals in a continuous manner while others transmit signals intermittently and how these patterns of activity fit into the overall activity of the gut. This study will build on a large body of data obtained from our laboratory that has shown that some of these neurons act as sensors of the presence-absence of food in the intestine while others send signals to the muscle in the wall of the intestine to either relax or contract it so that the food can be processed properly. By knowing what makes these neurons different from each other we will be able to understand what goes wrong in functional bowel disorders where motility is affected, resulting in pain and discomfort.Read moreRead less
Despite dramatic improvements in diagnosis, prevention and treatment of heart disease, cardiovascular disease remains the commonest cause of death in Australia. The continuing decline in mortality from ischaemic heart disease has been offset by an increase in the incidence of sudden cardiac death due to abnormal heart rhythms. By understanding the basic mechanisms underlying cardiac arrhythmias we are seeking to develop more effective therapies to treat and/or prevent sudden cardiac death.
Understanding Uterine Contractility: What Can We Learn From Obesity?
Funder
National Health and Medical Research Council
Funding Amount
$600,792.00
Summary
The incidence of failure to progress in labour has increased in recent years, being linked to the rise in obesity. The result is a significant escalation in the rate of delivery by Caesarean Section (CS) which increases the risk of serious complications during subsequent pregnancies. We have identified five dysfunctional systems associated with poor uterine contraction. We now aim to determine the mechanisms underlying these dysfunctional systems, particularly those mechanisms in common.
Effects Of Muscle Inflammation On Sensory Neuron Excitability
Funder
National Health and Medical Research Council
Funding Amount
$397,398.00
Summary
Muscle pain is a common and poorly treated health problem for many Australians. This project examines the properties of nerves that sense muscle pain and looks at how these change during inflammation, a common cause of muscle pain. We are looking specifically at jaw muscles, which are one of the most common sites of chronic muscle pain. By understanding how muscle nerves are changed by injury, we hope to be able to develop treatments to prevent or reverse these changes.